Tobacco mosaic virus in Hippeastrum hybridum

Samenvatting UitHippeastrum hybridum planten werd een virus geïsoleerd dat in diverse waardplanten symptomen induceerde overeenkomend met symptomen welke door de normale stam van het tabaksmozaïekvirus in eenzelfde waardplantenreeks werden veroorzaakt.De inoculatie vanHippeastrum-planten met het uitHippeastrum geïsoleerde TMV slaagde niet. Mogelijk werd dit verooizaakt door de aanwezigheid van virus-remstoffen inHippeastrum.     

Tentative description of Hippeastrum latent virus in Hippeastrum hybridum plants and differentiation from Hippeastrum mosaic virus

In mosaic-diseased plants ofHippeastrum hybridum two viruses were found. One virus with a normal length of 706 nm caused local lesions onHyoscyamus niger test plants and mosaic symptoms in the leaves ofH. hybridum. This virus was identified with theHippeastrum mosaic virus (HMV) (*/*∶*/*∶E/E∶S/*) and had a dilution end point between 10^?3 and 10^?4, a thermal inactivation point between 55–60°C and a longevity at room temperature of 28–32 hours. The second virus had a normal length between 584 and 611 nm depending on the method used. It caused local lesions onGomphrena globosa andChenopodium quinoa leaves, and after inoculation ofH. hybridum was found to be present without showing symptoms. It was readily purified from inoculated leaf tissue ofC. quinoa andNicotiana clevelandii by differential centrifugation and ofH. hybridum by density-gradient centrifugation. Purified virus had an absorption minimum at 242 nm, a maximum at 262 nm and a 260/280 absorption ratio of 1.19. The dilution end point was between 10^?3 and 10^?4, the thermal inactivation point between 70 and 80°C and the longevity in vitro at room temperature 28–32 hours. Although no direct comparisons have been made with other members of the potexvirus group, the virus seems to be a new one now namedHippeastrum latent virus. Both viruses were not seed-borne.     

Hippeastrum mosaic virus and another filamentous virus in Eucharis grandiflora

Two viruses were found in mosaic-diseased plants ofEucharis grandiflora in a glasshouse of the laboratory. One virus with a normal particle length of 733 nm caused local lesions onHyoscyamus niger and mosaic symptoms in leaves of healthy-lookingEucharis andHippeastrum plants. On the basis of its host range, physical properties and serology it was identified asHippeastrum mosaic virus, a member of the potyvirus group. This was confirmed by the presence of spherical nuclear inclusions and pinwheels in different tissues of diseasedEucharis plants. The second virus with a normal particle length of 598 nm was present in both healthy-looking and mosaic-diseasedEucharis plants, and it inconsistently induced local lesions onGomphrena globosa. According to its morphology and its reaction onGomphrena, it might be identical or related toHippeastrum latent virus. Crystal-like inclusions were observed in the cytoplasm of cells of both healthy-looking and mosaic-showingEucharis leaves. As no virus-free seedlings ofEucharis were available, the virus nature of these inclusions could not be established.     

植物与黄瓜花叶病毒互作的研究

植物对病原物的抗性包括由单基因控制的质量抗病性和由多基因控制的数量抗病性两种。作物对黄瓜花叶病毒病(CMV)的抗病性属于数量抗病性,即有多个微效抗性基因同时起作用控制黄瓜花叶病毒病的感染,其中研究最精细的是其数量主基因RCY1,该基因位于拟南芥5号染色体,编码一套具有卷曲螺旋-核苷酸结合位点-富含亮氨酸重复序列(CCNBLRR)结构的抗性蛋白;黄瓜花叶病毒病的外壳蛋白基因与RCY1基因共同作用决定作物对黄瓜花叶病毒病的抗性反应。但是在其它的互作体系中,可能存在另外的诱发子和抗性基因,到目前为止尚无定论。     

Economic impact of Turnip mosaic virus, Cauliflower mosaic virus and Beet mosaic virus in three Kenyan vegetables

Screenhouse experiments conducted in Kenya showed that inoculation of cabbage seedlings with Turnip mosaic virus (TuMV), either alone, or in combination with Cauliflower mosaic virus (CaMV), reduced the number and weight of marketable harvested heads. When viruses were inoculated simultaneously, 25% of cabbage heads were non-marketable, representing 20-fold loss compared with control. By contrast, inoculation with CaMV alone had insignificant effects on cabbage yield. This suggests that TuMV is the more detrimental of these pathogens, and its management should be a priority. Early exposure to TuMV produced cabbages that were 50% lighter than non-infected plants, but later infection was less damaging suggesting that controlling virus infection at the seedling stage is more important. TuMV was far less damaging to kale than it was to cabbage; although high proportions of TuMV-inoculated kale plants showed symptoms (>90%), the marketability and quality of leaves were not significantly reduced, and no clear relationship existed between timing of infection and subsequent crop losses. Early inoculation of Swiss chard with Beet mosaic virus (BtMV) significantly impaired leaf quality (∼50% reduction in marketable leaf production), but the impact of disease was greatest in plants that had been inoculated at maturity, where average leaf losses were two and a half times those recorded in virus-free plants. Disease-management of BtMV in Swiss chard is important, therefore, not only at the seedling stage, but particularly when plants are transplanted from nursery to field.     

Differential necrotic lesion formation in soybean cultivars in response to soybean mosaic virus

In this study, we examined the necrosis phenotype on leaves of two cultivars of soybean (ZheA8901 and Nannong1138-2) that show varying level of resistance to soybean mosaic virus (SMV). The necrotic symptoms seen on inoculated and systemic leaves of soybean cultivar ZheA8901 were reminiscent of programmed cell death (PCD). The cell death phenotypes were evaluated using the TUNEL method, quantification of hydrogen peroxide (H₂O₂) and salicylic acid, callose production, as well as by monitoring expression of defence genes GmPR-1 and GmNPR1. Our results show that SMV inoculation induced PCD on ZheA8901 is associated with rapid increase in H₂O₂, increased SA and callose accumulation and higher defence gene expression.     

地高辛标记的cDNA探针检测烟草花叶病毒、黄瓜花叶病毒及马铃薯Y病毒

 根据已发表的烟草花叶病毒(Tobacco mosaic virus,TMV)、黄瓜花叶病毒(Cucumber mosaic virus,CMV)和马铃薯Y病毒(Potato virus Y,PVY)的外壳蛋白基因序列,设计特异引物,分别以提取的TMV、CMV和PVY侵染的病叶总RNA为模板,反转录PCR进行体外扩增,分别得到长度为0.44、0.77、0.80 kb的目的片段,并克隆到pGEM-T easy质粒载体上,以构建的重组质粒为模板,用PCR方法合成了相应的地高辛标记的双链DNA探针。以合成的探针通过斑点杂交技术检测烟草病叶总RNA和烟草病叶汁液。TMV、CMV和PVY的3种地高辛探针检测各自感染的烟草病叶总RNA的稀释低限分别为1:1000、1:10000、1:320,检测各自侵染烟草病汁液的最大稀释倍数分别为1:100、1:100、1:10,而每种探针与健康烟草和其它2种病毒的反应均为阴性。     

Aubian wheat mosaic virus, a new soil-borne wheat virus emerging in France

The properties of Aubian wheat mosaic virus (AWMV), a new soil-borne wheat virus in France, were investigated. Symptoms include foliar mosaic and severe stunting of winter wheat. The vector of the disease is unknown but the plants infected carry Polymyxa graminis in the roots. AWMV was transmitted mechanically to wheat and to two dicotyledoneous species: Lactuca sativa and Vicia faba. This virus was transmitted by seed to three winter wheat cultivars tested. Purified preparations contained rod-shaped particles with a variable length of 150–700 nm. Certain particles are very long and appear flexible. Antiserum raised against AWMV reacted specifically with AWMV in both indirect and direct enzyme-linked immunosorbent assays (ELISA). The incidence of AWMV in 26 winter wheat cultivars was investigated in the field during the growing season of 1999–2000. AWMV was detected in roots and shoots of all cultivars regardless of the symptoms. Twelve virus species belonging to the genera Benyvirus, Bymovirus, Furovirus, Pecluvirus and Pomovirus did not react with the AWMV antisera. A new tubular virus described in winter wheat in Bedfordshire in England reacted strongly with AWMV in ELISA. It is concluded that AWMV and probably the Bedford-virus constitute a previously undescribed tubular virus biologically and serologically distinct from other soil-borne viruses of wheat.     

Chayote mosaic virus, a New Tymovirus Infecting Cucurbitaceae

ABSTRACT Chayote mosaic virus (ChMV) is a putative tymovirus isolated from chayote crops in Costa Rica. ChMV was characterized at the host range, serological, and molecular levels. ChMV was transmitted mechanically and induced disease symptoms mainly in Cucurbitaceae hosts. Asymptomatic infections were detected in other host families. Serologically, ChMV is related to the Andean potato latent virus (APLV) and the Eggplant mosaic virus (EMV), both members of the genus Tymovirus infecting solanaceous hosts in the Caribbean Basin and South America. The sequence of the genomic RNA of ChMV was determined and its genetic organization was typical of tymoviruses. Comparisons with other tymoviral sequences showed that ChMV was a new member of the genus Tymovirus. The phylogenetic analyses of the coat protein gene were consistent with serological comparisons and positioned ChMV within a cluster of tymoviruses infecting mainly cucurbit or solanaceous hosts, including APLV and EMV. Phylogenetic analyses of the replicase protein gene confirmed the close relationship of ChMV and EMV. Our results suggest that ChMV is related to two tymoviruses (APLV and EMV) of proximal geographical provenance but with different natural host ranges. ChMV is the first cucurbit-infecting tymovirus to be fully characterized at the genomic level.     

Host range and some properties of Physalis mosaic virus,a new virus of the turnip yellow mosaic virus group

An apparently undescribed virus was isolated fromPhysalis subglabrata in Illinois, USA, and its properties were studied. The virus was namedPhysalis mosaic virus (PMV). It was readily transmitted by sap inoculation to 23 out of 34 Solanaceae tested, toChenopodium foetidum andSonchus oleraceus but not to 28 other non-solanaceous species inoculated. Purified preparations of PMV contained isometric particles of 27 nm in diameter, which sedimented as two components with sedimentation coefficients of 50 and 112 S. The 112 S component was infectious, the 52 S component was not. The virus contained 38% ribonucleic acid with a molar base content of G 14.4%, A 22.9%, C 37,2% and U 25.5%.Purified preparations were highly infectious; a concentration of about 6000 particles per ml was infectious on plants.PMV is a member of the Andean potato latent virus subgroup of the turnip yellow mosaic virus group. The virus was closely related to the viruses: Andean potato latent, belladonna mottle, dulcamara mottle and egg-plant mosaic.Samenvatting Een nog niet eerder beschreven virus, dat in de staat Illinois (V.S. van Amerika) opPhysalis subglabrata was gevonden, werd in Wageningen bestudeerd. Het virus dat Physalis mosaic virus (PMV) (in het Nederlands:Physalis-mozaïekvirus) werd genoemd, kon met sap worden overgebracht.BehalveChenopodium foetidum enSonchus oleraceus bleken ook 23 van de 34 getoetste soorten uit de familie Solanaceae vatbaar voor dit virus te zijn. Gezuiverde virus preparaten bevatten isometrische deeltjes met een diameter van 27 nm (Fig. 2) Het virus bestaat uit twee deeltjes met sedimentatie-coëfficiënten van 112 en 50 S. Het 112 S deeltje bleek infectieus te zijn, het andere niet. Op grond van de sedimentatiecoëfficiënten kan worden berekend dat het 112 S deeltje 38% nucleïnezuur bevat. Voor de basenverhouding in het nucleïnezuur werd 22,9% adenine, 14,4% guanine, 37,2% cytosine en 25,5% uracil gevonden (Tabel 1). Het hoge gehalte van cytosine kwam ook tot uiting in de U.V. absorptiekromme van het virus en het nucleïnezuur (Fig. 1). Het gezuiverde virus bleek zeer infectieus te zijn; 6000 deeltjes/ml waren in staat een plant van de soortNicotiana clevelandii ziek te maken.Op grond van serologisch onderzoek kon het virus tot de turnip yellow mosaic virus groep worden gerekend. Het vertoonde serologische verwantschap met de Andean potato latent virus (APLV) subgroep (Tabel 2). In premunitieproeven bood het slechts een geringe bescherming tegen APLV en dulcamara mottle virus. Het omgekeerde werd eveneens geconstateerd. De leden van de APLV-subgroep kunnen op grond van hun waardplantenreeks van elkaar onderscheiden worden (Tabel 3).     

Molecular characterization and experimental host range of Euphorbia mosaic virus-Yucatan Peninsula, a begomovirus species in the Squash leaf curl virus clade

Euphorbia mosaic virus (EuMV), a tentative species within the genus Begomovirus, was isolated from Euphorbia heterophylla plants growing in the Yucatan Peninsula, Mexico. The complete bipartite genome was cloned from total DNA extracts and the nucleotide (nt) sequence was determined. The DNA-A sequence of the EuMV-Yucatan Peninsula (EuMV-YP) isolate shared 95% nt identity with the partially characterized type EuMV isolate from Puerto Rico. The EuMV-YP genome organization was like that of other New World, bipartite begomoviruses. The DNA-A component was 2613 nt in size, while the DNA-B component was 2602 nt long. The 165-nt common region (CR) sequence for the DNA-A and DNA-B components shared a lower than expected nt identity of 86%. The organization and iterons of the putative AC1 binding site of EuMV-YP were similar to those of begomoviruses in the Squash leaf curl virus (SLCV) clade. Characteristic disease symptoms were reproduced in E. heterophylla plants inoculated at the seedling stage using the cloned viral DNA-A and DNA-B components, confirming disease aetiology. Results of an experimental host-range study for EuMV-YP indicated that it infected at least five species in three plant families, including the Euphorbiaceae ( E. heterophylla ), Solanaceae ( Datura stramonium , pepper, tomato) and Fabaceae (bean). Phylogenetic analysis of the DNA-A and DNA-B components indicated that EuMV-YP is a New World begomovirus and that it is a new member of the SLCV clade.     

Isolation and identification of pathogenic strains of tomato mosaic virus by host passage

Three isolates of tomato mosaic virus, A.8, SJ-64 and SL^a, assumed to contain the pathogenic strains 1 and 2, were each subjected to selection pressure by passage through different hosts in concurrent series. The sub-isolated obtained were tested at intervals on differential tomato lines heterozygous for each of the resistance genes Tm-1 and Tm-2 and for the combination of Tm-1 and Tm-2.Three preliminary passages throughSolanum pennellii followed by 22 passages through the tomato line CStMW-18 (Tm-1/Tm-1) resulted for A.8, SJ-64 and SL^a in sub-iolates, of strain 1. Three preliminary passages throughL. peruvianum P. I. 128655 followed by 22 passages through the tomato line Pérou-2 (Tm-2/Tm-2) resulted for A.8 and SL^a in sub-isolates of strain 2 and for SJ-64 in a sub-isolate of strain 1.2. Twenty passages through Pérou-2, followed by two additional passages through the tomato line Craigella Tm-1/+Tm-2/+ resulted for SJ-64 and SL^a in sub-isolates of strain 1.2 and for A.8 in a sub-isolate of strain 2.Samenvatting Op drie isolaten van het tomatemozaïekvirus, A.8, SJ-64 en SL^a, die naar alle waarschijnlijkheid de pathogene stammen 1 en 2 bevatten, werd selectiedruk uitgeoefend door een herhaalde waardplantpassage. Voor de afscheiding van stam 1 onderging elk van de isolaten eerst driemaal een passage doorSolanum pennellii en vervolgens 22 maal door de tomaatselectie CStMW-18 (Tm-1/Tm-1). Voor stam 2 passeerde elk isolaat eerst driemaalLycopersicon peruvianum P.I. 128655 en vervolgens 22 maal de tomaatselectie Pérou-2 (Tm-2/Tm-2). Op gezette tijden werden de sub-isolaten, verkregen uit de gelijktijdig verlopende passageproeven, getoetst op een differentiële reeks tomaatselecties. Deze waren heterozygoot en homozygoot voor de resistentiegenen Tm-1 en Tm-2 en voor de combinatie van Tm-1 en Tm-2.Voor elk van de isolaten A.8, SJ-64 en SL^a werden na passage door CStMW-18 sub-isolaten verkregen van stam 1. Terwijl voor A.8 en SL^a na passage door Pérou-2 sub-isolaten van stam 2 werden verkregen, leverde dezelfde passage voor SJ-64 een sub-isolaat, op van stam 1.2. Voor SJ-64 en SL^a gaven, twee passages door de tomaatselectie Craigella Tm-1/2 Tm-2/+ in aansluiting op 20 passages door Pérou-2 aanleiding tot de vorming van stam 1.2.In de discussie wordt op de mogelijke ontstaanswijze van stam 1.2 ingegaan.     

Involvement of Beet western yellows virus, Cauliflower mosaic virus, and Turnip mosaic virus in Internal Disorders of Stored White Cabbage

ABSTRACT Experiments over two growing seasons clearly showed that Turnip mosaic virus (TuMV) infection was associated with internal necrosis (sunken necrotic spots 5 to 10 mm in diameter) and Beet western yellows virus (BWYV) infection was associated with collapse of leaf tissue at the margins (tipburn) in heads of stored white cabbage (Brassica oleracea var. capitata). Virtually no tipburn was seen in cv. Polinius, whereas cv. Impala was affected severely. Internal necrotic spots were seen in both cultivars. BWYV appeared to interact with TuMV. Plants infected with both viruses showed a lower incidence of external symptoms and had less internal necrosis than plants infected with TuMV alone. Cauliflower mosaic virus (CaMV) did not induce significant amounts of internal necrosis or tipburn, but did, in most cases, exacerbate symptoms caused by TuMV and BWYV. BWYV-induced tipburn worsened significantly during storage. Post-transplanting inoculation with TuMV induced more internal necrosis than pre-transplant inoculation. There was a significant association between detection of TuMV just prior to harvest and subsequent development of internal necrotic spots. Individually, all three viruses significantly reduced the yield of cv. Polinius, whereas only BWYV and CaMV treatments reduced the yield of cv. Impala.